Process for the production of multi-dose pharmaceutical preparations containing isolated or recombinantly produced human protein for infusion or injection purposes

ABSTRACT

The present invention concerns a process for the production of well-tolerated, preserved injection or infusion solutions containing human protein.

The present invention is concerned with a process for the production of pharmaceutical preparations containing human protein for use as an infusion or injection solution in a well-tolerated form.

In the meaning of the present invention, human proteins are endogenous proteins occurring in only small amounts which are used for therapeutic purposes such as e.g. t-PA (tissue plasminogen activator), G-CSF (granulocyte colony stimulating factor), streptokinase, urokinase, interferon or EPO (erythropoietin) and their recombinantly-produced derivatives which on the whole have similar or comparable pharmacological properties.

Pharmaceutical preparations containing human protein are described in the European Patent Application EP 0 430 200 for subcutaneous or intramuscular administration which, by means of the addition of amino acids, have a better bioavailability and are better tolerated in comparison with known forms of administration.

Stabilized pharmaceutical preparations containing human protein which contain inter alia, urea and various amino acids, are known from EP 0 306 824, in which EPO and G-CSF in particular are mentioned by way of example as human proteins.

Furthermore in EP 0 456 153 galenic aqueous formulations of EPO are described for the production of injection preparations for subcutaneous or intramuscular administration which have a pH value of 6-8 and solely contain an alkali metal phosphate or alkali metal halide for stabilization.

The production of the above-mentioned human proteins by genetic engineering is known for example from the following Patent Applications: processes are described in the PCT applications WO 85/02610 and WO 86/03520 for the production of rh-EPO (recombinant human erythropoietin) by genetic engineering. Furthermore, the production of polypeptides with erythropoietin-like action is described in EP 0 409 113; EP 0 357 804; WO 86/02100 and WO 91/05867. Furthermore, processes are known from the prior art for the production of other recombinant proteins, for example of polypeptides with plasminogen activator-like action from WO 90/09437; EP 0 227 462; EP 0 400 545 or EP 0 440 763. The production of polypeptides with G-CSF-like action is known for example from EP 91 107 429.2 and PCT/EP 91/00192.

EPO is a glycoprotein which stimulates the formation of haemoglobin and erythrocytes in the bone marrow. This lipoprotein is mainly formed in the kidney, is present in a very small amount in the serum and is excreted under physiological conditions in the urine.

The previous pharmaceutical preparations known from the prior art which contain human proteins are formulations which as a rule do not contain preservatives since they are generally used for a single administration in the form of a so-called single-dose formulation or single-dose container. In contrast, so-called multi-dose units or multi-dose containers are suitable for a multiple administration in any desired partial amounts of the active substance. Special demands are thereby made on the stability and storability of such forms of administration, especially with regard to the sterility of the solutions. For this reason such solutions are provided with preservatives in order to prevent the growth of micro-organisms in the prepared injection or infusion solution ready for administration.

However, the production of preserved pharmaceutical preparations containing human protein has proven to be difficult. When preservatives are used it has been shown that these give rise to stability problems if the pharmaceutical preparations are stored for longer periods. In this process the human proteins are inactivated and agglomerates are formed which may be the cause of the observed intolerance to the injection solutions. The usual processes for the production of preserved pharmaceutical formulations for infusion or injection purposes cannot be used in the case of active human protein ingredients since the active substances are inactivated under the sterilization conditions in autoclaves at 121° C. for 20 minutes and their structure is destroyed. It is also known that the usual preservatives used in pharmacy react with the active human protein ingredients and these are thereby inactivated. For this reason intravenous (i.v.) or subcutaneous (s.c.) preparations were previously produced as single-dose formulations under aseptic conditions without a preservative having been used in this case.

Thus, the problem existed of finding a process for the production of preserved pharmaceutical preparations containing human protein for injection or infusion purposes by means of which pharmaceutical preparations can be produced which do not have the above-mentioned disadvantages. It should be possible to administer these pharmaceutical preparations produced in this manner in a reproducible, well-tolerated manner they should ensure an administration which is as pain-free as possible and should be germ-free. Furthermore multi-dose forms of administration (multi-dose containers) should be provided which are germ-free and can be administered with good tolerance.

This object is achieved in that in a process for the production of pharmaceutical preparations containing human protein for injection or infusion purposes, preservatives are added at a concentration of up to 2% (weight % to volume %, w/v) and especially 0.01 to 1% or 0.1 to 0.3% and, if desired, these are removed again before production of the storable pharmaceutical formulation. By selecting those preservatives which have a very low allergy rate, it is additionally possible to also leave such preservatives in the storable pharmaceutical preparation so that a selective removal is not absolutely necessary.

The pharmaceutical preparations produced in this manner are preserved, i.e. they contain preservatives or a preservative was present during their production for at least part of the time. All substances which act bactericidally can be used for the preservation. The preservatives employed inhibit the growth of micro-organisms which get into the preparation during the filling or even kills them.

In the process according to the present invention, it is especially advantageous when those preservatives are used which can readily be removed in one of the last process steps for the production of the storable pharmaceutical formulation. This has the advantage that the administerable pharmaceutical preparations are then free from any preservatives influencing the tolerance. The volatile preservatives that are especially advantageous for this include chloretone (chlorobutanol, 1,1,1-trichloro-2-methyl-2-propanol) or benzyl alcohol.

After it had been ascertained that different preservatives with the same preserving action have a different allergy rate, the tolerance can be improved by the correct choice of the agent. Preservatives with a low allergy rate are in particular, chlorobutanol, benzyl alcohol and benzalkonium chloride. Benzalkonium chloride stands for a mixture of quaternary ammonium compounds (quats) of the alkylbenzyl-dimethylammonium chloride type of the general formula H₅ C₆ --CH₂ --N⁺ (CH₃)₂ R!Cl in which R is an alkyl residue C₈ H₁₇ -C₁₈ H₃₇ for example benzododecinium chloride or cetalkonium chloride (cf. Kirk-Othmer 2:633 ff; 19:562 ff.).

Furthermore these preservatives have the advantage that they do not inactivate the human proteins present in the solution. The tolerance is also improved by a concentration of the preservative which is as low as possible. In particular the content of an individual preservative in the pharmaceutical solution should not exceed a value of 10 mg/ml. Up to 5 mg/ml of a preservative are preferably used in the pharmaceutical solution.

The required concentration can be minimised by various measures. For example by preventing the inactivation of the human protein by the preservative to as great an extent as possible. This has the further advantage that the stability of the injection solution is increased. The inactivation can be inhibited by selecting the preservative with regard to a low reactivity. The inactivation is additionally reduced when the contact between the human protein and the preservative is as short as possible. The necessary concentration of the preservative in the solution can also be reduced by preventing its absorption to materials, for example to rubber, with which the solution comes into contact.

The type of preservative used plays an important role for the tolerance. All preservatives have a greater or lesser allergy rate. It is, however, not always possible to avoid their use in order to guarantee freedom from micro-organisms. According to the investigations forming the basis of the patent application, it is possible to use the preservatives in the production of the injection solutions in such a way that not only is a greatest possible freedom from micro-organisms guaranteed but also side-effects of the preservatives are almost completely excluded.

In spite of the fact that the added preservatives react to a greater or lesser extent with the human proteins and thereby inactivate them it is not possible in many cases to completely omit the addition of preservatives since micro-organisms can enter the solution for example during the filling process or because, when an injection solution is prepared from a sterile lyophilisate in a multi-dose container, this must be preserved until it has been completely used up.

The addition of preservative is not a problem in the production of a preparation when the preservative is selected so that it vapourises or sublimes away during the lyophilization. Preservatives which have an appropriate volatility are for example chloretone and benzyl alcohol.

Since the preservatives conventionally used in pharmacy react with the human proteins and inactivate them, preparations for intravenous and subcutaneous administration are often produced as single-dose formulations under aseptic conditions without in this process using a preservative. However, it is not always possible to avoid the entry of some micro-organisms into the preparation during the filling process which can give rise to damage if their growth is not inhibited or they are killed by the addition of a preservative.

The usable concentrations of the preservatives are between 0.1 and about 2.0 and preferably between 0.1 and about 0.3%. The exact concentration depends on the concentration of active substance and is determined from case to case by methods well-known to a person skilled in the art.

It is a legal requirement that formulations in multi-dose containers for intravenous and subcutaneous administration must be adequately preserved i.e. that even on the last day of the stipulated storage period a preserving action must still be present to a full extent. In order to satisfy this requirement the human protein solution in injectable form must contain preservatives. This gives rise to problems because as stated above, the preservatives react with the human proteins and induce a sensitisation in patients. The reaction with the active substance leads, on the one hand, to a reduction of the activity of the active substance and, on the other hand, of the preserving action which is further reduced by absorption of preservatives to rubber stoppers.

According to the present invention these difficulties are countered by using preservatives which do not react very much with human proteins and have little sensitizing action, by aiming for the shortest possible contact between the human protein and the preservative and excluding factors which contribute to a consumption of preservative.

Examples of less reactive and sensitizing preservatives are chlorobutanol, benzyl alcohol, benzalkonium chloride and combinations of these substances. When the said preservatives are used individually the following concentrations are employed: chlorobutanol: 2.0 to 5.0 mg/ml, preferably 3.0 to 4.0 mg/ml; benzyl alcohol: 1.0 to 5.0 mg/ml, preferably 2.0 to 3.0 mg/ml; benzalkonium chloride: 0.01 to 0.05 mg/ml, preferably 0.02 to 0.03 mg/ml.

It has turned out that it is particularly advantageous to use combinations of the individual preservatives. A better preservation is achieved by this means and the disadvantageous interactions with human proteins are minimised. When a single preservative was used it was not possible in some cases, depending on the human protein used, to achieve the required stability of the preparations. The use of benzalkonium chloride at concentrations which preserve optimally can for example lead to inactivation of the human protein. The use of chlorobutanol at a concentration which does not lead to an aggregation of the human protein at refrigeration temperatures may under certain circumstances result in an insufficient preservation. The use of benzyl alcohol in an amount sufficient for preservation can lead to physical incompatibility and to turbidity of the pharmaceutical solution. These disadvantages can be avoided by combining the individual preservatives. Preferred combinations are solutions which contain in particular benzyl alcohol/benzalkonium chloride, benzyl alcohol/chlorobutanol or chlorobutanol/benzyl alcohol/benzalkonium chloride. In this case chlorobutanol is preferably used up to a concentration of 10 mg/ml, benzyl alcohol up to 10 mg/ml and benzalkonium chloride up to 0.1 mg/ml, in particular 0.01 to 0.05 mg/ml. The combined use of benzyl alcohol and benzalkonium chloride is particularly advantageous in which case the concentration of benzyl alcohol is preferably 3 to 6 mg/ml and that of benzalkonium chloride 0.01 to 0.025 mg/ml in the pharmaceutical solution.

The use of less reactive and less sensitizing preservatives and the short period of contact already help to reduce the necessary amount of preservative because this minimises the degradation of the preservative when the human protein is inactivated.

The shortest possible contact is ensured in that the formulation in a lyophilisate form or in a concentrated form--if desired after the preservative has been removed during lyophilization (see above)--is stored under sterile conditions and the preservative is not added until the injection form is prepared whereby the injection solution should be consumed within 30 days.

If a lyophilisate is chosen, the pharmaceutical package unit can additionally contain the solvent needed for reconstitution. As a rule these are matched to the corresponding lyophilisate in such a way that injectable solutions are obtained on mixing which have the properties according to the present invention. The lyophilisate can already contain wholly or partly the necessary amounts of preservatives so that the reconstitution is essentially carried out with distilled water for injection purposes. On the other hand it is in principle also possible that the reconstitution solution contains the necessary amount of preservative in order to obtain preserved injectable pharmaceutical solutions. This is the preferred variant in the case of the multi-dose preparations.

According to one embodiment of the process of the present invention, the human proteins are dissolved in water with the necessary auxiliary substances, the necessary amounts of preservatives (up to a maximum of 6%) are added and if necessary, heated to the temperature which the human protein in question can withstand as regards stability, without it being thereby inactivated. The preservative is allowed to take effect for a longer period of time until the solution is substantially germ-free, i.e. up to about 4 hours and preferably 10 minutes to 2 hours. Afterwards the solution of active substance is dispensed into bottles and lyophilized. As a rule the preservative sublimes away or evaporates during the lyophilization. The lyophilisates obtained in this way produce a sterile solution for infusion or injection purposes after reconstitution with conventional solvents.

The good tolerance of the human protein injection solution is influenced inter alia by the correct choice of the pH value, of the buffer capacity, of the titration acidity and of the buffer substances present in the solution.

The upper pH value of the solution should not lie substantially above the neutral point (the pH value of blood is from 7.2 to 7.4) because human proteins are not stable in the alkaline range. For intravenous administration the solutions preferably have a pH value of about 4.5-7.4. Solutions with a pH value of about 6-7.4 are preferred for subcutaneous administration. The intravenous and subcutaneous administration differ because, due to the intravenous inflow of blood and the buffers present in the blood, a quicker adjustment to physiological pH conditions is possible than can take place subcutaneously. Since the rate of adjustment in the case of subcutaneous and intravenous administration can also be improved by a lowest possible buffer capacity and a titration acidity which is as low as possible the acceptable minimum value of the pH value of the solution also depends upon these parameters. In this case the buffer capacity of the solution ready for administration is in the range 0-10 mVal/l and the titration acidity in the range 0-20 mVal/l. In particular, the buffer capacity of the solution ready for administration should not be more than 6 mVal/l and the titration acidity not more than 10 mVal/l.

The buffer capacity is generally defined as that equivalent amount (Val) of acid or lye which is necessary in order to change the pH value of a solution with a volume of one liter by one pH unit. If monobasic acids or bases are used for the titration the specification Val/l for the acid or base used corresponds to the molar amount mol/l of this acid. Since in the present case the solutions used have a pH value in the acid range the buffer capacity can alternatively be defined as that amount of for example a 0.1N NaOH solution which is needed in order to increase the pH value of a solution of one liter by one pH unit. The pharmaceutical solutions containing human protein contain the usual pharmaceutical auxiliary substances and vehicles during the determination of the buffer capacity.

The determination of the buffer capacity of the pharmaceutical preparations containing human protein is carried out on the injection or infusion solutions ready for administration which, in addition to the active substance itself, contain conventional auxiliary substances and additives for pharmaceutical practice. As a rule the solutions have an acidic pH value for the stabilization of the protein. The corresponding amount of base which is necessary to increase the pH value of the solution by one pH unit is determined by titration with bases.

Preferred limits for the buffer capacity in the infusion or injection solution for intravenous administration are up to 2.4 ml of a 0.1N sodium hydroxide solution and preferably up to 0.5 ml. This corresponds to an amount of lye of 0.24 mmol or 0.05 mmol. For subcutaneous administration it is preferable to use up to 1 ml of a 0.1N NaOH solution and especially up to 0.2 ml of a 0.1N NaOH solution. This corresponds to an amount of lye of up to 0.1 mmol or up to 0.02 mmol.

Furthermore, it has been shown that it is advantageous when the injection or infusion solutions ready for administration have a titration acidity which is as low as possible, of up to 5 mVal/l.

Preferred limits for the titration acidity of the infusion or injection solutions for intravenous administration are up to 10 ml, preferably up to 5 ml, 3 ml or 1 ml of a 0.1N NaOH solution. This corresponds to a titration acidity of up to 1 mmol/l or up to 0.3 mmol/l or 0.1 mmol/l. For subcutaneous administration it is preferable to use up to 5 ml, especially up to 2 ml or up to 0.5 ml of a 0.1N NaOH solution. In this case the titration acidity is 0.5 mmol/l or up to 0.2 mmol/l or 0.05 mmol/l.

The titration acidity or basicity is generally defined as that amount of lye or acid which is necessary in order to adjust the pH value of a solution with a volume of one liter to the pH value of blood (about 7.2 to 7.4). In the present case the titration acidity can alternatively be defined as that amount of for example a 0.1N NaOH solution which is necessary to increase the pH value of one liter of a solution to that of blood (about 7.3). The pharmaceutical solutions containing human protein contain the conventional pharmaceutical auxiliary substances and additives during the determination of the buffer capacity. The method for the determination of the titration acidity is carried out in a manner analogous to that for the determination of the buffer capacity by starting with the injection or infusion solution ready for administration and determining that amount of base which is necessary in order to adjust the pH value of the solution to about 7.

The usable pH range for an infusion or injection solution and that can be administered substantially pain-free is in the acid or neutral range depending on the particular human protein used. The infusion or injection solutions have a pH value in the range of about 2-7.4. Solutions are preferably used with a pH value of about 3.8-7.4, whereby the pH values 4.5 to 6.0 and preferably 5.5 to 6.0 come into particular consideration as the lower limit. pH values of the solutions are preferably used as the upper limit of the pH range which are close to the pH value of blood. Solutions are preferably used for intravenous applications with a pH value of 6-7.4, in particular 6.8-7.2. Solutions are preferably used for subcutaneous applications with a pH value of 6.5-7.2, in particular 7.0-7.2.

Suitable muteins can also be used in addition to the naturally-occurring form of the human proteins. The term "muteins" is generally understood as those human proteins whose amino acid sequence differs by at least one amino acid from the natural sequence. These differences can be for example that one or more and preferably 1 to 10 amino acids in the natural sequence are replaced by other amino acids or that one or more amino acids are added to or even omitted from the N- or C-terminal end. This is then referred to as N- or C-terminal extensions or N- or C-terminal deletions. The above-mentioned possibilities may, if desired, also be combined with one another, i.e. the N-terminal end of the natural sequence can for example be elongated while simultaneously shortening the C-terminal end during which, if desired, it is also possible to simultaneously replace one or more amino acids by other amino acids. With regard to the particular direction of indication the fragments thus obtained should have substantially the same fundamental therapeutic properties and actions as the natural human proteins.

In general the term "recombinant" refers to those human proteins which are produced with the aid of recombinant DNA technology. These methods encompass the cloning of the gene that codes for the particular human protein, the insertion of appropriate cDNA or genomic DNA into a suitable vector such as e.g. into bacterial plasmids and the transformation of these recombinant plasmids into suitable host cells. The cloned gene is then expressed in the host cell and the corresponding human protein is isolated in a known manner.

The liquid or also the lyophizised pharmaceutical preparations may, if desired, contain conventional pharmaceutical auxiliary substances such as stabilizing agents or organic hydrophilic polymers. Oligosaccharides such as sucrose, tetralose, lactose, dextrans with a molecular weight of about 10,000 to 2,000,000 are for example suitable as stabilizers. Organic hydrophilic polymers are macromolecules with a carbon backbone which is made up of hydrophilic monomeric units, if desired, with polar side groups such as polyethylene glycol or polyvinylpyrrolidone.

The pharmaceutical preparations additionally contain conventional pharmaceutical buffers such as alkali phosphates (sodium or potassium phosphate or their hydrogen or dihydrogen salts), salts of organic or inorganic acids or amino acids. The composition of the various buffer substances in the formulation is chosen so that a buffer capacity which is as low as possible results, of the injection or infusion solution ready for administration. This can be achieved by using an amount of buffer substances which is as low as possible and in doing so the total amount of the buffer should in particular not exceed a concentration of 100 mmol/l in the pharmaceutical solution. Buffer substances are preferably used at a concentration of 10 to 100 mmol/l and especially of 20 to 60 mmol/l. Alternatively, it is also possible to select the individual buffer substances such that they mutually compensate their action that is mainly in the acid or basic buffer range. In this case the total amount of buffer substances can be up to 200 mmol/l in the final administerable pharmaceutical preparation.

The lyophilized pharmaceutical preparations preferably additionally contain a structure former which forms a crystalline matrix when the aqueous solution freezes, that also remains structurally stable during the subsequent lyophilization and during storage of the lyophilisate for longer periods under various external conditions. In this sense mannitol and glycine come into consideration as suitable structure formers.

The pharmaceutical preparations produced in this manner are preferably marketed in the form of lyophilisates. They can be used as single dose preparations, in which case a particular amount of the human protein is present in an injection bottle, ampoule or capsule and the lyophilisate is dissolved by the addition of an appropriate amount of reconstitution solution. The reconstitution solution can already contain the required amount of lye that is needed to adjust the desired pH value of the injectable solution. In addition conventional isotonic additives can also be used. The lyophilisate can, on the other hand, also contain wholly or partly the amounts of basic reagents required to set the advantageous pH range so that the reconstitution is carried out essentially with distilled water for injection purposes. Furthermore, the lyophilisate as well as also the reconstitution solution can contain agents which ensure the production of an isotonic solution.

The reconstituted solution is then drawn up into an injection syringe and can be administered directly into the patient. So-called single dose preparations contain for example rh-EPO in an amount of 500 to 20,000 U and preferably 1000, 2000, 5000, 10,000 or 15,000 U. When a proportionately larger amount of human protein is used it is also possible to produce multi-dose preparations. In this case, a larger volume (about 5 to 10 ml) is used as the reconstitution solution and this solution can then be used for several administrations. In this case the amount of human protein to be administered can be decided individually by the physician or it can be used for several administrations in different patients.

The specific activity of the EPO used for the production of the injection or infusion solutions is preferably about 160,000 IU per absorbance unit at 280 nm (cf. EP 0 209 539).

Injection solutions containing human protein contain, in addition to the active substance, conventional auxiliary substances which include, besides the aforementioned stabilizers, buffers, complexing agents and wetting agents dissolved in water. The buffers are used at concentrations of about 1 to about 100 mmol/l. Usable pH values of the solutions are between about 4.5 and about 7.4 in the case of intravenous administration and between about 6.0 and about 7.4 in the case of subcutaneous administration. The upper limit lies in the pH value range of blood (7.2 to 7.4). Higher pH values are to be avoided because the human proteins are usually not stable in the alkaline range.

In the following, the present invention is described in detail on the basis of examples. rh-EPO and G-CSF as representatives of the class of human proteins are used in each case as the active substance. However, other human proteins can also be used in the same way.

In order to produce injection solutions that can be used in the present invention, the auxiliary substances are dissolved in water in a sterile V2A double-jacketed tank equipped with a stirrer. The essential auxiliary substances are buffers, complexing agents, stabilizers and wetting agents. Suitable buffers for setting the physiologically optimum range for intravenous and subcutaneous use are in particular glycocoll sodium citrate, primary potassium phosphate, secondary sodium phosphate, carbonate and salts of amino acids, as well as the sodium and potassium salts of malic acid, maleic acid, fumaric acid, tartaric acid and aspartic acid and combinations of these substances. The buffers are used at a concentration of about 1 to about 100 mmol/l solution. The active substance is added to the solution and it is made up to the final volume and stirred. The batch solution is sterilized by filtration over a membrane filter with a pore size of 0.2 μm. The solution obtained in this way is dispensed in 0.5 ml aliquots into injection bottles under aseptic conditions and subsequently dried in a lyophilization unit.

The formulations described above are also stable as solutions ready for injection. In their production the solution obtained is not lyophilized but rather dispensed directly into an ampoule or injection bottle with a volume of for example 1 ml per container.

Conventional pharmaceutical auxiliary substances or additives are used to produce the pharmaceutical forms of administration that contain the human proteins. Stabilizing or solubilizing agents such as the basic amino acids arginine, lysine or ornithine can also be added. Glycine, leucine, isoleucine, threonine, glutamine, glutamic acid, aminoacetic acid, phenylalanine as well as further amino acids mentioned in the Patent Applications EP 0 430 200 and EP 0 306 824 are used in particular as amino acids which serve to stabilize or solubilize the protein and can in addition be used as buffer substances. The form of administration can be marketed as a lyophilisate or also as a ready-to-use infusion or injection solution.

In the manufacture of the pharmaceutical package units it is usual to provide the forms of administration with a package insert which inter alia contains instructions that the infusion or injection solutions enable well-tolerated and pain-free administration.

It is intended to use the following examples to describe in more detail human protein solutions according to the invention for multi-dose containers and their production. The solutions in question are those which contain EPO or G-CSF as human protein. However, other human proteins can also be used in the same way. The formulations produced are present as lyophilisates or as liquid preparations which remain stable for years when stored in a refrigerator at about +4° to about +8° C.

Example 1

EPO 2000 units injection dry substance (batch for 35,000 bottles)

The following auxiliary substances are dissolved in a sterile 100 l V2A double-jacketed tank equipped with a stirrer:

    ______________________________________     urea              700.0  g     70.0 g   0    g     sodium chloride   70.0   g     70.0 g   70.0 g     Tween 20          7.0    g     7.0  g   7.0  g     chloretone        70.0   g     70.0 g   70.0 g     sodium dihydrogen     phosphate × 1H.sub.2 O                       38.4   g     38.4 g   38.4 g     disodium hydrogen     phosphate × 2H.sub.2 O                       350.0  g     350.0                                         g   350.0                                                  g     calcium chloride × 2H.sub.2 O                       8.4    g     0.42 g   --     glycine           105.0  g     105.0                                         g   105.0                                                  g     L-leucine         140.0  g     140.0                                         g   140.0                                                  g     L-isoleucine      140.0  g     140.0                                         g   140.0                                                  g     L-threonine       35.0   g     35.0 g   35.0 g     L-glutamic acid   35.0   g     35.0 g   35.0 g     L-phenylalanine   70.0   g     70.0 g   70.0 g     water for injection                       70.0   l     70.0 l   70.0 l     purposes ad (quantum sufficient)     ______________________________________

214.3 ml of an erythropoietin raw material batch with an EPO titre of 140,000 units/1 ml is added to 30 l of this solution of auxiliary substances and then made up to a final volume of 35 l and stirred. The filtration system is rinsed with the remainder of the solution of auxiliary substances. The batch solution is sterilized by filtration over a membrane filter of 0.2 μm pore size.

The sterile-filtered solution is dispensed in 1 ml aliquots into injection bottles under aseptic conditions and freeze-dried in a lyophilization unit.

The formulations described in the example are stable when stored not only as lyophilisates but also as injectable solutions.

Example 2

EPO lyophilisate 5000 U and 10,000 U

    ______________________________________     Components:     ______________________________________     erythropoietin     5000    U      10,000                                             U     calcium chloride × 2H.sub.2 O                        0.151   mg     0.302 mg     sodium chloride    2.500   mg     5.000 mg     polysorbate 20     0.250   mg     2.500 mg     sodium dihydrogen     phosphate × 1H.sub.2 O                        1.190   mg     2.380 mg     disodium hydrogen     phosphate × 2H.sub.2 O                        9.965   mg     19.930                                             mg     aminoacetic acid   37.500  mg     75.000                                             mg     L-leucine          5.000   mg     10.000                                             mg     L-isoleucine       5.000   mg     10.000                                             mg     L-threonine        1.250   mg     2.500 mg     L-glutamic acid    1.250   mg     2.500 mg     L-phenylalanine    2.500   mg     2.500 mg     water for injection purposes                        2.14    --     4.18  --     ad (quantum sufficient)                        5.35    ml     10.70 ml     ______________________________________

The production of the lyophilisates is carried out analogously to the procedure described in Example 1 with the sole difference that before the lyophilization the solution is dispensed into 0.5 ml bottles and not into 1 ml bottles.

These lyophilisates are dissolved before use with well-tolerated reconstitution solutions containing preservatives: 5.0 mg chlorobutanol, ad 1.0 ml water for injection purposes. Alternatively it is also possible to use solutions of benzyl alcohol (about 4-5 mg/ml) with the addition of benzalkonium chloride (about 0.01 to 0.05 mg/ml).

Example 3

EPO solutions ready-for injection

    ______________________________________                 1000 U/  2000 U/  5000 U/                                          10,000 U/     Components: ampoule  ampoule  ampoule                                          ampoule     ______________________________________     EPO         1000   U     2000 U   5000 U   10,000                                                      U     urea        5.00   mg    5.00 mg  5.00 mg  5.00  mg     polysorbate 20                 0.10   mg    0.10 mg  0.10 mg  0.10  mg     NaCl        0.50   mg    0.60 mg  0.60 mg  0.60  mg     Na.sub.2 H.sub.2 PO.sub.4, 2H.sub.2 O                 0.31   mg    0.62 mg  0.62 mg  0.62  mg     Na.sub.2 HPO.sub.4, 12H.sub.2 O                 5.03   mg    10.06                                   mg  10.06                                            mg  10.06 mg     CaCl.sub.2, 2H.sub.2 O                 0.04   mg    0.08 mg  0.08 mg  0.08  mg     aminoacetic 7.50   mg    15.00                                   mg  15.00                                            mg  15.00 mg     acid     L-glutamic acid                 0.25   mg    0.50 mg  0.50 mg  0.50  mg     L-isoleucine                 1.00   mg    2.00 mg  2.00 mg  2.00  mg     L-leucine   1.00   mg    2.00 mg  2.00 mg  2.00  mg     L-phenylalanine                 0.50   mg    1.00 mg  1.00 mg  1.00  mg     L-threonine 0.25   mg    0.50 mg  0.50 mg  0.50  mg     water for   1      ml    1    ml  1    ml  1     ml     injection     purposes ad     (quantum sufficient)     ______________________________________

The production process differs from that used in Example 2 only in that the solution obtained is not lyophilized but rather dispensed directly into an ampoule or injection bottle in an amount of 0.5 ml per container.

These injection solutions are diluted before use with 0.5 ml or 1.0 ml of a preserved, well-tolerated solution of the following composition: 5.0 mg benzyl alcohol; water for injection purposes ad 1.0 ml. Alternatively it is also possible to use solutions of benzyl alcohol (about 4-5 mg/ml) with addition of benzalkonium chloride (about 0.01-0.05 mg/ml).

Example 4

rhG-CSF solutions with pH 2.5

    ______________________________________     rhG-CSF              0.175    mg     sodium chloride      1.500    mg     polysorbate 80       0.050    mg     aminoacetic acid     5.750    mg     analytical quality     L-leucine            0.500    mg     L-isoleucine         0.500    mg     L-threonine          0.125    mg     L-glutamic acid      0.125    mg     L-phenylalanine      0.250    mg     HCl 0.1 molar        0.000    mg     water for injection  +493.025 mg     purposes     ______________________________________

pH value of the solution reconstituted in 0.5 ml of water for injection purposes: 2.5.

These injection solutions are diluted before use with 0.5 ml or 1.0 ml of a preserved, well-tolerated solution of the following composition: 5.0 mg benzyl alcohol, water for injection purposes ad 1.0 ml. Alternatively it is also possible to use solutions of benzyl alcohol (about 4-5 mg/ml) with addition of benzalkonium chloride (about 0.01-0.05 mg/ml).

Example 5

G-CSF formulations with pH value 4.5

    ______________________________________     rhG-CSF               0.175    mg     sodium chloride       1.500    mg     polysorbate 80        0.050    mg     aminoacetic acid      6.550    mg     analytical quality     L-leucine             0.500    mg     L-isoleucine          0.500    mg     L-threonine           0.125    mg     L-glutamic acid       0.125    mg     L-phenylalanine       0.250    mg     NaOH 0.1 molar ad     0.000    mg     (quantum sufficient) pH 4.5     water for injection   +492.225 mg     purposes     ______________________________________

pH value of the solution reconstituted in 0.5 ml water for injection purposes: 4.5. These injection solutions are diluted before use with 0.5 ml or 1.0 ml of a preserved, well-tolerated solution of the following composition: 5.0 mg benzyl alcohol, water for injection purposes ad (quantum sufficient) 1.0 ml. Alternatively it is also possible to use solutions of benzyl alcohol (about 4-5 mg/ml) with addition of benzalkonium chloride (about 0.01-0.05 mg/ml).

Buffer capacity: 3.0 mmol/l NaOH (30 ml 0.1N NaOH)

Titration acidity: 5.0 mmol/l NaOH (50 ml 0.1N NaOH).

Example 6

G-CSF formulation with pH value 3.8-4.0

    ______________________________________     rhG-CSF               0.175    mg     sodium chloride       1.500    mg     polysorbate 80        0.050    mg     aminoacetic acid      5.750    mg     analytical quality     L-leucine             0.500    mg     L-isoleucine          0.500    mg     L-threonine           0.125    mg     L-glutamic acid       0.125    mg     L-phenylalanine       250      mg     HCl 0.1 molar ad      0.000    mg     (quantum sufficient) pH     3.8 to 4.0     water for injection   +493.025 mg     purposes     ______________________________________

pH value of the solution reconstituted in 0.5 ml of water for injection purposes: 3.9. These injection solutions are diluted before use with 0.5 ml or 1.0 ml of a preserved, well-tolerated solution of the following composition: 5.0 mg benzyl alcohol, water for injection purposes ad (quantum sufficient) 1.0 ml. Alternatively it is also possible to use solutions of benzyl alcohol (about 4-5 mg/ml) with addition of benzalkonium chloride (about 0.01-0.05 mg/ml).

Buffer capacity: 5.8 mmol/l Na0H (58 ml 0.1N Na0H) Titration acidity: 10 mmol/l NaOH (100 ml 0.1N NaOH)

Example 7

G-CSF formulations with pH 4

    ______________________________________     rhG-CSF     0.175    mg    0.175  mg  0.175  mg     urea        2.500    mg    0.250  mg  0.000  mg     sodium chloride                 1.500    mg    1.500  mg  1.500  mg     polysorbate 80                 0.050    mg    0.050  mg  0.050  mg     aminoacetic acid                 3.750    mg    5.550  mg  5.750  mg     analytically pure                 0.500    mg    0.500  mg  0.500  mg     L-leucine     L-isoleucine                 0.500    mg    0.500  mg  0.500  mg     L-threonine 0.125    mg    0.125  mg  0.125  mg     L-glutamic acid                 0.125    mg    0.125  mg  0.125  mg     L-phenylalanine                 0.250    mg    0.250  mg  0.250  mg     water for   +492.525 mg    +492.975                                       mg  +493.025                                                  mg     injection purposes     pH value of the                 4.0            4.0        4.0     lyophilization     form dissolved in     0.5 ml water for     injection purposes     Buffer capacity: 5.8 mmol/l NaOH (58 ml 0.1 N NaOH)     Titration acidity: 10 mmol/l NaOH (100 ml 0.1 N NaOH)     ______________________________________

The formulations described in examples 1 to 7 are stable on storage not only as lyophilisates but also as injectable solutions. 

We claim:
 1. A process for the production of preserved isolated or recombinantly produced human protein-containing pharmaceutical preparations suitable for use as injection or infusion solutions in the form of multi-dose preparations, comprising forming a solution of the isolated or recombinantly produced human protein and at least one preservative selected from the group consisting of chlorobutanol, benzyl alcohol, benzalkonium chloride and mixtures thereof, in the absence of a mineral suspension, wherein the concentration of the preservative in the multi-dose preparation is 0.001 to 2 w/v %.
 2. Process of claim 1, wherein the solution is an aqueous solution.
 3. Process of claim 2, wherein the preservative is added to an aqueous solution of the human protein.
 4. Process of claim 3, wherein the concentration is 0.01 to 1 w/v %.
 5. Process of claim 3, wherein the preservative is a mixture.
 6. Process of claim 2, wherein the preservative is chlorobutanol (1,1,1-trichloro-2-methyl-2-propanol) which is present in the solution in a concentration of about 2-5 mg/ml.
 7. Process of claim 2, wherein the preservative is benzyl alcohol which is present in the solution in a concentration of about 1-5 mg/ml.
 8. Process of claim 2, wherein benzalkonium chloride is present in the solution in a concentration of about 0.01-0.05 mg/ml.
 9. Process of claim 2, wherein the human protein is selected from the group consisting of EPO, G-CSF and proteins with plasminogen activator-like activity.
 10. Process of claim 2, wherein the buffer capacity of the preparation is adjusted to a value of up to 10 mVa/l.
 11. Process of claim 10, wherein the buffer capacity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 12. Process of claim 2, wherein the titration acidity of the preparation is adjusted to a value of up to 15 mVal/l before administration to a patient.
 13. Process of claim 12, wherein the titration acidity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 14. Process of claim 2, wherein said preservative is a mixture of benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml and up to 0.1 mg/ml, respectively.
 15. Process of claim 2, wherein the preservative is a mixture of benzyl alcohol and chlorobutanol present in concentrations of up to 10 mg/ml each.
 16. Process of claim 2, wherein the preservative is a mixture of chlorobutanol, benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml, up to 10 ml/mg and up to 0.1 mg/ml, respectively.
 17. Process of claim 2, wherein the preservative is a mixture of benzyl alcohol present in a concentration of 3 to 6 mg/ml and benzalkonium chloride present in a concentration of 0.1 to 0.025 mg/ml.
 18. A pharmaceutical preparation in the form of a multidose-formulation comprising an aqueous solution containing an isolated or recombinantly produced human protein and 0.001 to 2 w/v % of at least one preservative selected from the group consisting of chlorobutanol (1,1,1-trichloro-2-methyl-2-propanol), benzyl alcohol, benzalkonium chloride and mixtures thereof in the absence of a mineral suspension.
 19. Preparation of claim 18, wherein the concentration of the preservative in the solution is about 0.1 to about 2.0 w/v %.
 20. Preparation of claim 19, wherein the concentration is about 0.01 to about 0.3 w/v %.
 21. Preparation of claim 18 wherein the preservative is a mixture.
 22. Preparation of claim 18 wherein the preservative is chlorobutanol (1,1,1-trichloro-2-methyl-2-propanol) which is present in the solution in a concentration of about 2-5 mg/ml.
 23. Preparation of claim 18, wherein the preservative is benzyl alcohol which is present in the solution in a concentration of about 1-5 mg/ml.
 24. Preparation of claim 18, wherein the preservative is benzalkonium chloride which is present in the solution in a concentration of about 0.01-0.05 mg/ml.
 25. Preparation of claim 18, wherein the human protein is selected from the group consisting of EPO, G-CSF and proteins with plasminogen activator-like activity.
 26. Preparation of claim 18, wherein the buffer capacity of the preparation is adjusted to a value of up to 10 mVa/l.
 27. Preparation of claim 26, wherein the buffer capacity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 28. Preparation of claim 18, wherein the titration acidity of the preparation is adjusted to a value of up to 15 mVal/l before administration to a patient.
 29. Preparation of claim 28, wherein the titration acidity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 30. Preparation of claim 18, wherein the preservative is a mixture of benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml and up to 0/1 mg/ml, respectively.
 31. Preparation of claim 18, wherein the preservative is a mixture of benzyl alcohol and chlorobutanol present in concentrations of up to 10 mg/ml each.
 32. Preparation of claim 18, wherein the preservative is a mixture of chlorobutanol, benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml, up to 10 mg/ml and up to 0.1 mg/ml, respectively.
 33. Preparation of claim 18, wherein the preservative is a mixture of benzyl alcohol present in a concentration of 3 to 6 mg/ml and benzalkonium chloride present in a concentration of 0.1 to 0.025 mg/ml.
 34. A kit for the preparation of a human protein-containing pharmaceutical injection or infusion solution, comprising a packaged lyophilized human protein and a separately packaged aqueous reconstitution solvent containing a preservative selected from the group consisting of chlorobutanol, benzyl alcohol, benzalkonium chloride and mixtures thereof in an amount to provide a concentration of the preservative in the injection or infusion solution of 0.001 to 2 w/v %, wherein said kit does not contain a mineral suspension.
 35. A process for the production of preserved human protein-containing pharmaceutical preparations suitable for use as injection or infusion solutions in the form of multi-dose preparations, comprising forming an aqueous solution of the human protein and a mixture of at least two preservatives selected from the group consisting of chlorobutanol, benzyl alcohol and benzalkonium chloride in the absence of a mineral suspension, wherein the concentration of the preservatives in the multi-dose preparation is 0.001 to 2 w/v %.
 36. Process of claim 35, wherein the preservative is added to an aqueous solution of the human protein.
 37. Process of claim 36, wherein the concentration is 0.01 to 1 W/V %.
 38. Process of claim 35, wherein one preservative is chlorobutanol (1,1,1-trichloro-2-methyl-2-propanol) which is present in the solution in a concentration of about 2-5 mg/ml.
 39. Process of claim 35, wherein one preservative is benzyl alcohol which is present in the solution in a concentration of about 1-5 mg/ml.
 40. Process of claim 35, wherein benzalkonium chloride is present in the solution in a concentration of about 0.01-0.05 mg/ml.
 41. Process of claim 35, wherein the human protein is selected from the group consisting of EPO, G-CSF and proteins with plasminogen activator-like activity.
 42. Process of claim 35, wherein the buffer capacity of the preparation is adjusted to a value of up to 10 mVa/l.
 43. Process of claim 42 wherein the buffer capacity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 44. Process of claim 35, wherein the titration acidity of the preparation is adjusted to a value of up to 15 mVal/l before administration to a patient.
 45. Process of claim 44, wherein the titration acidity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 46. Process of claim 35, wherein the preservatives are a mixture of benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml and up to 0.1 mg/ml, respectively.
 47. Process of claim 35, wherein the preservatives are a mixture of benzyl alcohol and chlorobutanol present in concentrations of up to 10 mg/ml each.
 48. Process of claim 35, wherein the preservatives are a mixture of chlorobutanol, benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml, up to 10 mg/ml and up to 0.1 mg/ml, respectively.
 49. The process according to claim 35, further comprisingremoving the preservative from said aqueous solution, lyophilizing said aqueous solution to produce a lyophilisate, and then reconstituting said lyophilisate with a reconstitution solution containing preservative to produce said multi-dose preparation.
 50. Process of claim 35, wherein the preservatives are a mixture of benzyl alcohol present in a concentration of 3 to 6 mg/ml and benzalkonium chloride present in a concentration of 0.1 to 0.025 mg/ml.
 51. A pharmaceutical preparation comprising an aqueous solution containing a human protein and 0.001 to 2 w/v % of a mixture of at least two preservatives selected from the group consisting of chlorobutanol(1,1,1-trichloro-2-methyl-2-propanol), benzyl alcohol and benzalkonium chloride in the absence of a mineral suspension, said preparation in the form of a multi-dose formulation.
 52. Preparation of claim 51, wherein the concentration of the preservatives in the solution is about 0.1 to about 2.0 w/v %.
 53. Preparation of claim 51, wherein the concentration is about 0.01 to about 0.3 w/v %.
 54. Preparation of claim 51 wherein one preservative is chlorobutanol (1,1,1-trichloro-2-methyl-2-propanol) which is present in the solution in a concentration of about 2-5 mg/ml.
 55. Preparation of claim 51, wherein one preservative is benzyl alcohol which is present in the solution in a concentration of about 1-5 mg/ml.
 56. Preparation of claim 51, wherein one preservative is benzalkonium chloride which is present in the solution in a concentration of about 0.01-0.05 mg/ml.
 57. Preparation of claim 51, wherein the human protein is selected from the group consisting of EPO, G-CSF and proteins with plasminogen activator-like activity.
 58. Preparation of claim 51, wherein the buffer capacity of the preparation is adjusted to a value of up to 10 mVa/l.
 59. Preparation of claim 58, wherein the buffer capacity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 60. Preparation of claim 51, wherein the titration acidity of the preparation is adjusted to a value of up to 15 mVal/l before administration to a patient.
 61. Preparation of claim 60, wherein the titration acidity of the preparation is adjusted by the addition to the solution of a well tolerated buffer substance selected from the group consisting of glycol, sodium citrate, alkali phosphates, alkali carbonates, amino acid salts, malic acid salts, maleic acid, fumaric acid, tartaric acid, aspartic acid and mixtures thereof.
 62. Preparation of claim 51, wherein the preservatives are a mixture of benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml and up to 0.1 mg/ml, respectively.
 63. Preparation of claim 51, wherein the preservative is a mixture of benzyl alcohol and chlorobutanol present in concentrations of up to 10 mg/ml each.
 64. Preparation of claim 51, wherein the preservative is a mixture of chlorobutanol, benzyl alcohol and benzalkonium chloride present in concentrations of up to 10 mg/ml, up to 10 mg/ml and up to 0.1 mg/ml, respectively.
 65. Preparation of claim 51, wherein the preservative is a mixture of benzyl alcohol present in a concentration of 3 to 6 mg/ml and benzalkonium chloride present in a concentration of 0.1 to 0.025 mg/ml.
 66. A kit for the preparation of a human protein-containing pharmaceutical injection or infusion solution, comprising a packaged lyophilized human protein and a separately packaged aqueous reconstitution solvent containing a mixture of at least two preservatives selected from the group consisting of chlorobutanol, benzyl alcohol and benzalkonium chloride in an amount to provide a concentration of the preservatives in the injection or infusion solution of 0.001 to 2 w/v %, wherein the kit does not contain a mineral suspension. 